Method and System for Providing Broadcast Media Services in a Communication System

1. A device, comprising: a processing system including a processor; and a memory that stores executable instructions that, when executed by the processing system, facilitate performance of operations, the operations comprising: receiving first session status information using a Diameter signaling protocol from equipment of a broadcast multicast service center via a first interface, wherein the first session status information is based on a multicast-broadcast service; transmitting the first session status information, using the Diameter signaling protocol to a first media gateway device via a second interface, the first media gateway device initiating first communicative couplings between the first media gateway device and a group of wireless communication nodes adapted to facilitate distribution of streaming media content of the multicast-broadcast service to mobile communication devices according to the first session status information, the first communicative couplings providing for transmission of a first media stream of the multicast-broadcast service from the equipment of the broadcast multicast service center over a multicast-broadcast single frequency network, serving a mobile communication system that utilizes a Long-Term Evolution protocol; receiving, using the Diameter signaling protocol, first operational state information from the first media gateway device via a second interface; determining a loss of operational performance at the first media gateway device according to the first operational state information; receiving, using the Diameter signaling protocol, second session status information from the equipment of the broadcast multicast service center via the first interface; and transmitting, using the Diameter signaling protocol, the second session status information to a second media gateway device via a third interface responsive to the determining of the loss of operational performance at the first media gateway device, wherein the second session status information is based on the multicast-broadcast service, the second media gateway device initiating second communicative couplings between the second media gateway device and the group of wireless communication nodes according to the second session status information, the second communicative couplings providing for transmission of a second media stream of the multicast-broadcast service from the broadcast multicast service center over the multicast-broadcast single frequency network.

2. The device of claim 1 , wherein the operations further comprise: retransmitting the first session status information from the equipment of the broadcast multicast service center to the second media gateway device via the third interface responsive to the determining of the loss of operational performance at the first media gateway device without relying on an exchange of protocol messages with the equipment of the broadcast multicast service center, the second media gateway device initiating third communicative couplings between the second media gateway device and the group of wireless communication nodes according to the first session status information, the third communicative couplings providing for transmission of the first media stream from the equipment of the broadcast multicast service center to end user devices over the multicast-broadcast single frequency network.

3. The device of claim 2 , wherein the operations further comprise: receiving second operational state information from the equipment of the broadcast multicast service center; determining a second loss of operational performance at the equipment of the broadcast multicast service center according to the second operational state information; initiating a client-server relationship between the second media gateway device and equipment of a second broadcast multicast service center responsive to the determining of the second loss of operational performance at the equipment of the broadcast multicast service center; and routing third session status information from the equipment of the second broadcast multicast service center to the second media gateway device according to the client-server relationship, the second media gateway device initiating fourth communicative couplings between the second media gateway device and the group of wireless communication nodes according to the third session status information of the equipment of the second broadcast multicast service center, the second communicative couplings providing for transmission of a third media stream from the equipment of the second broadcast multicast service center over the multicast-broadcast single frequency network.

4. The device of claim 1 , wherein the operations further comprise: determining a second operational state of the first media gateway device indicating a recovery of operational performance of the first media gateway device; retransmitting the second session status information from the equipment of the broadcast multicast service center to the first media gateway device via the second interface responsive to the determining of the second operational state indicating the recovery of operational performance of the first media gateway device, the first media gateway device reinitiating the first communicative couplings between the first media gateway device and the group of wireless communication nodes according to the first session status information, the first communicative couplings providing for resumption of the transmission of the first media stream from the equipment of the broadcast multicast service center to end user devices over the multicast-broadcast single frequency network; and terminating the transmitting of the second media stream responsive to the resumption of the transmission by the first media gateway device.

5. The device of claim 1 , wherein the first session status information indicates that a multicast-broadcast session is scheduled and available, wherein the first session status information is received from the equipment of the broadcast multicast service center via a first Diameter message and wherein the first operational state information is received from the first media gateway device via a second Diameter message.

6. The device of claim 1 , wherein the multicast-broadcast services comprises a 3 rd Generation Partnership Project multicast-broadcast service, and wherein the first session status information that is received from the equipment of the broadcast multicast service center comprises one of a media broadcast session start, a media broadcast session update, a media broadcast session stop, or any combination thereof.

7. The device of claim 1 , wherein the first operational state information that is received from the first media gateway device comprises a session termination request.

8. The device of claim 7 , wherein the operations further comprise initiating a client-server relationship between the second media gateway device and the equipment of the broadcast multicast service center responsive to the determining of the loss of operational performance at the equipment of the broadcast multicast service center.

9. The device of claim 1 , wherein the first operational state information comprises one of data loading information for the first media gateway device, an indication overloading for the first media gateway device, a type of protocol message received from the first media gateway device, or any combination thereof.

10. The device of claim 1 , wherein the operations further comprise receiving a request from the first media gateway device via the second interface for initiating a connection to the equipment of the broadcast multicast service center.

11. The device of claim 1 , wherein the first media stream comprises emergency broadcast content and wherein the first session status information comprises a serving area code that defines a geographic area for delivery of the emergency broadcast content by the multicast-broadcast single frequency network.

12. The device of claim 1 , wherein the operations further comprise: requesting the first operational state information from the first media gateway device; and analyzing the first operational state information to determine the loss of operational performance.

13. The device of claim 1 , wherein the device, the first media gateway device, and the second media gateway device are co-located at a data center for providing multicasting services to a plurality of wireless communication nodes.

14. The device of claim 1 , wherein the device and first media gateway device are in two different geographic locations.

15. A non-transitory, machine-readable storage medium, comprising executable instructions that, when executed by a processor, facilitate performance of operations, comprising: receiving first session status information using a Diameter signaling protocol from equipment of a broadcast multicast service center via a first interface, wherein the first session status information is based on a multicast-broadcast service; routing the first session status information, using the Diameter signaling protocol to a first media gateway device via a second interface for initiating first communicative couplings to a group of wireless communication nodes for transmission of a first media stream from the equipment of the broadcast multicast service center to the group of wireless communication nodes of a multicast-broadcast single frequency network adapted to facilitate distribution of streaming media content of the multicast-broadcast service via a mobile communication system that utilizes a Long-Term Evolution protocol, according to the first session status information; monitoring an operational state of the first media gateway device; determining, from the operational state, a loss of operational performance of the first media gateway device; and re-routing the first session status information, using the Diameter signaling protocol from the equipment of the broadcast multicast service center to a second media gateway device via a third interface responsive to the determining of the loss of operational performance of the first media gateway device, the second media gateway device initiating second communicative couplings to the group of wireless communication nodes according to the first session status information, the second media gateway device transmitting a first media stream of the multicast-broadcast service over the multicast-broadcast single frequency network to the group of wireless communication nodes to enable distribution to a group of end user devices.

16. The non-transitory, machine-readable storage medium of claim 15 , wherein the first communicative couplings, the second communicative couplings, or both, between the first media gateway device, the second media gateway device, or both, and the group of wireless communication nodes comprise bearer paths supporting a network transport layer for transmission of the first media stream.

17. The non-transitory, machine-readable storage medium of claim 15 , wherein the operations further comprise: determining, from the operational state of the first media gateway device, an operational state of the second media gateway device, or operational states of both, a recovery of operational performance of the first media gateway device; and retransmitting the first session status information from the equipment of the broadcast multicast service center to the first media gateway device via the second interface responsive to the determining the recovery of operational performance of the first media gateway device, the first media gateway device reinitiating the first communicative couplings between the first media gateway device and the group of wireless communication nodes according to the first session status information, the first communicative couplings providing for resumption of the transmission of the first media stream from the equipment of the broadcast multicast service center to end user devices over the multicast-broadcast single frequency network.

18. The non-transitory, machine-readable storage medium of claim 15 , wherein the operations further comprise initiating a client-server relationship between the first media gateway device and the equipment of the broadcast multicast service center.

19. The non-transitory, machine-readable storage medium of claim 15 , wherein the second media gateway device maintains bearer path contexts and a multicast group internet protocol address associated with the transmission of the first media stream to the group of wireless communication nodes over the multicast-broadcast single frequency network.

20. A method, comprising: routing, by a processing system comprising a processor, session status information using a Diameter signaling protocol from equipment of a broadcast multicast service center to a first media gateway device, the first media gateway device initiating first communicative couplings according to the session status information for transmission of a first media stream of a multicast-broadcast service from the equipment of the broadcast multicast service center to a group of wireless communication nodes based on the multicast-broadcast service over a multicast-broadcast single frequency network serving a mobile communication system that utilizes a Long-Term Evolution protocol; detecting, by the processing system, a loss of operating performance of the first media gateway device; and re-routing, by the processing system, the session status information using the Diameter signaling protocol from the equipment of the broadcast multicast service center to a second media gateway device responsive to the detecting of the loss of operating performance of the first media gateway device, the second media gateway device initiating second communicative couplings according to the session status information for transmission of the first media stream of the multicast-broadcast service from the equipment of the broadcast multicast service center to the group of wireless communication nodes over the multicast-broadcast single frequency network to enable distribution to a group of end user devices.